/*
 * Copyright (c) 2005, PostgreSQL Global Development Group
 * See the LICENSE file in the project root for more information.
 */

package org.postgresql.jdbc;

import static org.postgresql.util.internal.Nullness.castNonNull;

import org.postgresql.core.BaseConnection;
import org.postgresql.core.BaseStatement;
import org.postgresql.core.Oid;
import org.postgresql.core.QueryExecutor;
import org.postgresql.core.ServerVersion;
import org.postgresql.core.TypeInfo;
import org.postgresql.util.GT;
import org.postgresql.util.PGobject;
import org.postgresql.util.PSQLException;
import org.postgresql.util.PSQLState;

import org.checkerframework.checker.nullness.qual.Nullable;

import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Types;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Locale;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.logging.Level;
import java.util.logging.Logger;

public class TypeInfoCache implements TypeInfo {

  private static final Logger LOGGER = Logger.getLogger(TypeInfoCache.class.getName());

  // pgname (String) -> java.sql.Types (Integer)
  private final Map<String, Integer> pgNameToSQLType;

  private final Map<Integer, Integer> oidToSQLType;

  // pgname (String) -> java class name (String)
  // ie "text" -> "java.lang.String"
  private final Map<String, String> pgNameToJavaClass;

  // oid (Integer) -> pgname (String)
  private final Map<Integer, String> oidToPgName;
  // pgname (String) -> oid (Integer)
  private final Map<String, Integer> pgNameToOid;

  private final Map<String, Integer> javaArrayTypeToOid;

  // pgname (String) -> extension pgobject (Class)
  private final Map<String, Class<? extends PGobject>> pgNameToPgObject;

  // type array oid -> base type's oid
  private final Map<Integer, Integer> pgArrayToPgType;

  // array type oid -> base type array element delimiter
  private final Map<Integer, Character> arrayOidToDelimiter;

  private final BaseConnection conn;
  private final int unknownLength;
  private @Nullable PreparedStatement getOidStatementSimple;
  private @Nullable PreparedStatement getOidStatementComplexNonArray;
  private @Nullable PreparedStatement getOidStatementComplexArray;
  private @Nullable PreparedStatement getNameStatement;
  private @Nullable PreparedStatement getArrayElementOidStatement;
  private @Nullable PreparedStatement getArrayDelimiterStatement;
  private @Nullable PreparedStatement getTypeInfoStatement;
  private @Nullable PreparedStatement getAllTypeInfoStatement;
  private final ResourceLock lock = new ResourceLock();

  // basic pg types info:
  // 0 - type name
  // 1 - type oid
  // 2 - sql type
  // 3 - java class
  // 4 - array type oid
  private static final Object[][] types = {
      {"int2", Oid.INT2, Types.SMALLINT, "java.lang.Integer", Oid.INT2_ARRAY},
      {"int4", Oid.INT4, Types.INTEGER, "java.lang.Integer", Oid.INT4_ARRAY},
      {"oid", Oid.OID, Types.BIGINT, "java.lang.Long", Oid.OID_ARRAY},
      {"int8", Oid.INT8, Types.BIGINT, "java.lang.Long", Oid.INT8_ARRAY},
      {"money", Oid.MONEY, Types.DOUBLE, "java.lang.Double", Oid.MONEY_ARRAY},
      {"numeric", Oid.NUMERIC, Types.NUMERIC, "java.math.BigDecimal", Oid.NUMERIC_ARRAY},
      {"float4", Oid.FLOAT4, Types.REAL, "java.lang.Float", Oid.FLOAT4_ARRAY},
      {"float8", Oid.FLOAT8, Types.DOUBLE, "java.lang.Double", Oid.FLOAT8_ARRAY},
      {"char", Oid.CHAR, Types.CHAR, "java.lang.String", Oid.CHAR_ARRAY},
      {"bpchar", Oid.BPCHAR, Types.CHAR, "java.lang.String", Oid.BPCHAR_ARRAY},
      {"varchar", Oid.VARCHAR, Types.VARCHAR, "java.lang.String", Oid.VARCHAR_ARRAY},
      {"varbit", Oid.VARBIT, Types.OTHER, "java.lang.String", Oid.VARBIT_ARRAY},
      {"text", Oid.TEXT, Types.VARCHAR, "java.lang.String", Oid.TEXT_ARRAY},
      {"name", Oid.NAME, Types.VARCHAR, "java.lang.String", Oid.NAME_ARRAY},
      {"bytea", Oid.BYTEA, Types.BINARY, "[B", Oid.BYTEA_ARRAY},
      {"bool", Oid.BOOL, Types.BIT, "java.lang.Boolean", Oid.BOOL_ARRAY},
      {"bit", Oid.BIT, Types.BIT, "java.lang.Boolean", Oid.BIT_ARRAY},
      {"date", Oid.DATE, Types.DATE, "java.sql.Date", Oid.DATE_ARRAY},
      {"time", Oid.TIME, Types.TIME, "java.sql.Time", Oid.TIME_ARRAY},
      {"timetz", Oid.TIMETZ, Types.TIME, "java.sql.Time", Oid.TIMETZ_ARRAY},
      {"timestamp", Oid.TIMESTAMP, Types.TIMESTAMP, "java.sql.Timestamp", Oid.TIMESTAMP_ARRAY},
      {"timestamptz", Oid.TIMESTAMPTZ, Types.TIMESTAMP, "java.sql.Timestamp",
          Oid.TIMESTAMPTZ_ARRAY},
      {"refcursor", Oid.REF_CURSOR, Types.REF_CURSOR, "java.sql.ResultSet", Oid.REF_CURSOR_ARRAY},
      {"json", Oid.JSON, Types.OTHER, "org.postgresql.util.PGobject", Oid.JSON_ARRAY},
      {"point", Oid.POINT, Types.OTHER, "org.postgresql.geometric.PGpoint", Oid.POINT_ARRAY},
      {"box", Oid.BOX, Types.OTHER, "org.postgresql.geometric.PGBox", Oid.BOX_ARRAY}
  };

  /**
   * PG maps several alias to real type names. When we do queries against pg_catalog, we must use
   * the real type, not an alias, so use this mapping.
   *
   * <p>
   * Additional values used at runtime (including case variants) will be added to the map.
   * </p>
   */
  private static final ConcurrentMap<String, String> TYPE_ALIASES = new ConcurrentHashMap<>(30);

  static {
    TYPE_ALIASES.put("bool", "bool");
    TYPE_ALIASES.put("boolean", "bool");
    TYPE_ALIASES.put("smallint", "int2");
    TYPE_ALIASES.put("int2", "int2");
    TYPE_ALIASES.put("int", "int4");
    TYPE_ALIASES.put("integer", "int4");
    TYPE_ALIASES.put("int4", "int4");
    TYPE_ALIASES.put("long", "int8");
    TYPE_ALIASES.put("int8", "int8");
    TYPE_ALIASES.put("bigint", "int8");
    TYPE_ALIASES.put("float", "float8");
    TYPE_ALIASES.put("real", "float4");
    TYPE_ALIASES.put("float4", "float4");
    TYPE_ALIASES.put("double", "float8");
    TYPE_ALIASES.put("double precision", "float8");
    TYPE_ALIASES.put("float8", "float8");
    TYPE_ALIASES.put("decimal", "numeric");
    TYPE_ALIASES.put("numeric", "numeric");
    TYPE_ALIASES.put("character varying", "varchar");
    TYPE_ALIASES.put("varchar", "varchar");
    TYPE_ALIASES.put("time without time zone", "time");
    TYPE_ALIASES.put("time", "time");
    TYPE_ALIASES.put("time with time zone", "timetz");
    TYPE_ALIASES.put("timetz", "timetz");
    TYPE_ALIASES.put("timestamp without time zone", "timestamp");
    TYPE_ALIASES.put("timestamp", "timestamp");
    TYPE_ALIASES.put("timestamp with time zone", "timestamptz");
    TYPE_ALIASES.put("timestamptz", "timestamptz");
  }

  @SuppressWarnings("method.invocation")
  public TypeInfoCache(BaseConnection conn, int unknownLength) {
    this.conn = conn;
    this.unknownLength = unknownLength;
    oidToPgName = new HashMap<>((int) Math.round(types.length * 1.5));
    pgNameToOid = new HashMap<>((int) Math.round(types.length * 1.5));
    javaArrayTypeToOid = new HashMap<>((int) Math.round(types.length * 1.5));
    pgNameToJavaClass = new HashMap<>((int) Math.round(types.length * 1.5));
    pgNameToPgObject = new HashMap<>((int) Math.round(types.length * 1.5));
    pgArrayToPgType = new HashMap<>((int) Math.round(types.length * 1.5));
    arrayOidToDelimiter = new HashMap<>((int) Math.round(types.length * 2.5));

    // needs to be synchronized because the iterator is returned
    // from getPGTypeNamesWithSQLTypes()
    pgNameToSQLType = Collections.synchronizedMap(new HashMap<String, Integer>((int) Math.round(types.length * 1.5)));
    oidToSQLType = Collections.synchronizedMap(new HashMap<Integer, Integer>((int) Math.round(types.length * 1.5)));

    for (Object[] type : types) {
      String pgTypeName = (String) type[0];
      Integer oid = (Integer) type[1];
      Integer sqlType = (Integer) type[2];
      String javaClass = (String) type[3];
      Integer arrayOid = (Integer) type[4];

      addCoreType(pgTypeName, oid, sqlType, javaClass, arrayOid);
    }

    pgNameToJavaClass.put("hstore", Map.class.getName());
  }

  @Override
  public void addCoreType(String pgTypeName, Integer oid, Integer sqlType,
      String javaClass, Integer arrayOid) {
    try (ResourceLock ignore = lock.obtain()) {
      pgNameToJavaClass.put(pgTypeName, javaClass);
      pgNameToOid.put(pgTypeName, oid);
      oidToPgName.put(oid, pgTypeName);
      javaArrayTypeToOid.put(javaClass, arrayOid);
      pgArrayToPgType.put(arrayOid, oid);
      pgNameToSQLType.put(pgTypeName, sqlType);
      oidToSQLType.put(oid, sqlType);

      // Currently we hardcode all core types array delimiter
      // to a comma. In a stock install the only exception is
      // the box datatype and it's not a JDBC core type.
      //
      Character delim = ',';
      if ("box".equals(pgTypeName)) {
        delim = ';';
      }
      arrayOidToDelimiter.put(oid, delim);
      arrayOidToDelimiter.put(arrayOid, delim);

      String pgArrayTypeName = pgTypeName + "[]";
      pgNameToJavaClass.put(pgArrayTypeName, "java.sql.Array");
      pgNameToSQLType.put(pgArrayTypeName, Types.ARRAY);
      oidToSQLType.put(arrayOid, Types.ARRAY);
      pgNameToOid.put(pgArrayTypeName, arrayOid);
      pgArrayTypeName = "_" + pgTypeName;
      if (!pgNameToJavaClass.containsKey(pgArrayTypeName)) {
        pgNameToJavaClass.put(pgArrayTypeName, "java.sql.Array");
        pgNameToSQLType.put(pgArrayTypeName, Types.ARRAY);
        pgNameToOid.put(pgArrayTypeName, arrayOid);
        oidToPgName.put(arrayOid, pgArrayTypeName);
      }
    }
  }

  @Override
  public void addDataType(String type, Class<? extends PGobject> klass)
      throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      pgNameToPgObject.put(type, klass);
      pgNameToJavaClass.put(type, klass.getName());
    }
  }

  @Override
  public Iterator<String> getPGTypeNamesWithSQLTypes() {
    return pgNameToSQLType.keySet().iterator();
  }

  @Override
  public Iterator<Integer> getPGTypeOidsWithSQLTypes() {
    return oidToSQLType.keySet().iterator();
  }

  private static String getSQLTypeQuery(boolean typoidParam) {
    // There's no great way of telling what's an array type.
    // People can name their own types starting with _.
    // Other types use typelem that aren't actually arrays, like box.
    //
    // in case of multiple records (in different schemas) choose the one from the current
    // schema,
    // otherwise take the last version of a type that is at least more deterministic then before
    // (keeping old behaviour of finding types, that should not be found without correct search
    // path)
    StringBuilder sql = new StringBuilder();
    sql.append("SELECT typinput='pg_catalog.array_in'::regproc as is_array, typtype, typname, pg_type.oid ");
    sql.append("  FROM pg_catalog.pg_type ");
    sql.append("  LEFT JOIN (select ns.oid as nspoid, ns.nspname, r.r ");
    sql.append("          from pg_namespace as ns ");
    // -- go with older way of unnesting array to be compatible with 8.0
    sql.append("          join ( select s.r, (current_schemas(false))[s.r] as nspname ");
    sql.append("                   from generate_series(1, array_upper(current_schemas(false), 1)) as s(r) ) as r ");
    sql.append("         using ( nspname ) ");
    sql.append("       ) as sp ");
    sql.append("    ON sp.nspoid = typnamespace ");
    if (typoidParam) {
      sql.append(" WHERE pg_type.oid = ? ");
    }
    sql.append(" ORDER BY sp.r, pg_type.oid DESC;");
    return sql.toString();
  }

  private static int getSQLTypeFromQueryResult(ResultSet rs) throws SQLException {
    Integer type = null;
    boolean isArray = rs.getBoolean("is_array");
    String typtype = rs.getString("typtype");
    if (isArray) {
      type = Types.ARRAY;
    } else if ("c".equals(typtype)) {
      type = Types.STRUCT;
    } else if ("d".equals(typtype)) {
      type = Types.DISTINCT;
    } else if ("e".equals(typtype)) {
      type = Types.VARCHAR;
    }
    if (type == null) {
      type = Types.OTHER;
    }
    return type;
  }

  private PreparedStatement prepareGetAllTypeInfoStatement() throws SQLException {
    PreparedStatement getAllTypeInfoStatement = this.getAllTypeInfoStatement;
    if (getAllTypeInfoStatement == null) {
      getAllTypeInfoStatement = conn.prepareStatement(getSQLTypeQuery(false));
      this.getAllTypeInfoStatement = getAllTypeInfoStatement;
    }
    return getAllTypeInfoStatement;
  }

  public void cacheSQLTypes() throws SQLException {
    LOGGER.log(Level.FINEST, "caching all SQL typecodes");
    PreparedStatement getAllTypeInfoStatement = prepareGetAllTypeInfoStatement();
    // Go through BaseStatement to avoid transaction start.
    if (!((BaseStatement) getAllTypeInfoStatement)
        .executeWithFlags(QueryExecutor.QUERY_SUPPRESS_BEGIN)) {
      throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
    }
    ResultSet rs = castNonNull(getAllTypeInfoStatement.getResultSet());
    while (rs.next()) {
      String typeName = castNonNull(rs.getString("typname"));
      Integer type = getSQLTypeFromQueryResult(rs);
      if (!pgNameToSQLType.containsKey(typeName)) {
        pgNameToSQLType.put(typeName, type);
      }

      Integer typeOid = longOidToInt(castNonNull(rs.getLong("oid")));
      if (!oidToSQLType.containsKey(typeOid)) {
        oidToSQLType.put(typeOid, type);
      }
    }
    rs.close();
  }

  private PreparedStatement prepareGetTypeInfoStatement() throws SQLException {
    PreparedStatement getTypeInfoStatement = this.getTypeInfoStatement;
    if (getTypeInfoStatement == null) {
      getTypeInfoStatement = conn.prepareStatement(getSQLTypeQuery(true));
      this.getTypeInfoStatement = getTypeInfoStatement;
    }
    return getTypeInfoStatement;
  }

  @Override
  public int getSQLType(String pgTypeName) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      /*
        Get a few things out of the way such as arrays and known types
      */
      if (pgTypeName.endsWith("[]")) {
        return Types.ARRAY;
      }
      Integer i = this.pgNameToSQLType.get(pgTypeName);
      if (i != null) {
        return i;
      }

      /*
        All else fails then we will query the database.
        save for future calls
      */
      i = getSQLType(castNonNull(getPGType(pgTypeName)));

      pgNameToSQLType.put(pgTypeName, i);
      return i;
    }
  }

  @Override
  public int getJavaArrayType(String className) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      Integer oid = javaArrayTypeToOid.get(className);
      if (oid == null) {
        return Oid.UNSPECIFIED;
      }
      return oid;
    }
  }

  @Override
  public int getSQLType(int typeOid) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      if (typeOid == Oid.UNSPECIFIED) {
        return Types.OTHER;
      }

      Integer i = oidToSQLType.get(typeOid);
      if (i != null) {
        return i;
      }

      LOGGER.log(Level.FINEST, "querying SQL typecode for pg type oid ''{0}''", intOidToLong(typeOid));

      PreparedStatement getTypeInfoStatement = prepareGetTypeInfoStatement();

      getTypeInfoStatement.setLong(1, intOidToLong(typeOid));

      // Go through BaseStatement to avoid transaction start.
      if (!((BaseStatement) getTypeInfoStatement)
          .executeWithFlags(QueryExecutor.QUERY_SUPPRESS_BEGIN)) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      ResultSet rs = castNonNull(getTypeInfoStatement.getResultSet());

      int sqlType = Types.OTHER;
      if (rs.next()) {
        sqlType = getSQLTypeFromQueryResult(rs);
      }
      rs.close();

      oidToSQLType.put(typeOid, sqlType);
      return sqlType;
    }
  }

  private PreparedStatement getOidStatement(String pgTypeName) throws SQLException {
    boolean isArray = pgTypeName.endsWith("[]");
    boolean hasQuote = pgTypeName.contains("\"");
    int dotIndex = pgTypeName.indexOf('.');

    if (dotIndex == -1 && !hasQuote && !isArray) {
      PreparedStatement getOidStatementSimple = this.getOidStatementSimple;
      if (getOidStatementSimple == null) {
        String sql;
        // see comments in @getSQLType()
        // -- go with older way of unnesting array to be compatible with 8.0
        sql = "SELECT pg_type.oid, typname "
              + "  FROM pg_catalog.pg_type "
              + "  LEFT "
              + "  JOIN (select ns.oid as nspoid, ns.nspname, r.r "
              + "          from pg_namespace as ns "
              + "          join ( select s.r, (current_schemas(false))[s.r] as nspname "
              + "                   from generate_series(1, array_upper(current_schemas(false), 1)) as s(r) ) as r "
              + "         using ( nspname ) "
              + "       ) as sp "
              + "    ON sp.nspoid = typnamespace "
              + " WHERE typname = ? "
              + " ORDER BY sp.r, pg_type.oid DESC LIMIT 1;";
        this.getOidStatementSimple = getOidStatementSimple = conn.prepareStatement(sql);
      }
      // coerce to lower case to handle upper case type names
      String lcName = pgTypeName.toLowerCase(Locale.ROOT);
      // default arrays are represented with _ as prefix ... this dont even work for public schema
      // fully
      getOidStatementSimple.setString(1, lcName);
      return getOidStatementSimple;
    }
    PreparedStatement oidStatementComplex;
    if (isArray) {
      PreparedStatement getOidStatementComplexArray = this.getOidStatementComplexArray;
      if (getOidStatementComplexArray == null) {
        String sql;
        if (conn.haveMinimumServerVersion(ServerVersion.v8_3)) {
          sql = "SELECT t.typarray, arr.typname "
              + "  FROM pg_catalog.pg_type t"
              + "  JOIN pg_catalog.pg_namespace n ON t.typnamespace = n.oid"
              + "  JOIN pg_catalog.pg_type arr ON arr.oid = t.typarray"
              + " WHERE t.typname = ? AND (n.nspname = ? OR ? AND n.nspname = ANY (current_schemas(true)))"
              + " ORDER BY t.oid DESC LIMIT 1";
        } else {
          sql = "SELECT t.oid, t.typname "
              + "  FROM pg_catalog.pg_type t"
              + "  JOIN pg_catalog.pg_namespace n ON t.typnamespace = n.oid"
              + " WHERE t.typelem = (SELECT oid FROM pg_catalog.pg_type WHERE typname = ?)"
              + " AND substring(t.typname, 1, 1) = '_' AND t.typlen = -1"
              + " AND (n.nspname = ? OR ? AND n.nspname = ANY (current_schemas(true)))"
              + " ORDER BY t.typelem DESC LIMIT 1";
        }
        this.getOidStatementComplexArray = getOidStatementComplexArray = conn.prepareStatement(sql);
      }
      oidStatementComplex = getOidStatementComplexArray;
    } else {
      PreparedStatement getOidStatementComplexNonArray = this.getOidStatementComplexNonArray;
      if (getOidStatementComplexNonArray == null) {
        String sql = "SELECT t.oid, t.typname "
            + "  FROM pg_catalog.pg_type t"
            + "  JOIN pg_catalog.pg_namespace n ON t.typnamespace = n.oid"
            + " WHERE t.typname = ? AND (n.nspname = ? OR ? AND n.nspname = ANY (current_schemas(true)))"
            + " ORDER BY t.oid DESC LIMIT 1";
        this.getOidStatementComplexNonArray = getOidStatementComplexNonArray = conn.prepareStatement(sql);
      }
      oidStatementComplex = getOidStatementComplexNonArray;
    }
    //type name requested may be schema specific, of the form "{schema}"."typeName",
    //or may check across all schemas where a schema is not specified.
    String fullName = isArray ? pgTypeName.substring(0, pgTypeName.length() - 2) : pgTypeName;
    String schema;
    String name;
    // simple use case
    if (dotIndex == -1) {
      schema = null;
      name = fullName;
    } else {
      if (fullName.startsWith("\"")) {
        if (fullName.endsWith("\"")) {
          String[] parts = fullName.split("\"\\.\"");
          schema = parts.length == 2 ? parts[0] + "\"" : null;
          name = parts.length == 2 ? "\"" + parts[1] : parts[0];
        } else {
          int lastDotIndex = fullName.lastIndexOf('.');
          name = fullName.substring(lastDotIndex + 1);
          schema = fullName.substring(0, lastDotIndex);
        }
      } else {
        schema = fullName.substring(0, dotIndex);
        name = fullName.substring(dotIndex + 1);
      }
    }
    if (schema != null && schema.startsWith("\"") && schema.endsWith("\"")) {
      schema = schema.substring(1, schema.length() - 1);
    } else if (schema != null) {
      schema = schema.toLowerCase(Locale.ROOT);
    }
    if (name.startsWith("\"") && name.endsWith("\"")) {
      name = name.substring(1, name.length() - 1);
    } else {
      name = name.toLowerCase(Locale.ROOT);
    }
    oidStatementComplex.setString(1, name);
    oidStatementComplex.setString(2, schema);
    oidStatementComplex.setBoolean(3, schema == null);
    return oidStatementComplex;
  }

  @Override
  public int getPGType(String pgTypeName) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      // there really isn't anything else to return other than UNSPECIFIED here.
      if (pgTypeName == null) {
        return Oid.UNSPECIFIED;
      }

      Integer oid = pgNameToOid.get(pgTypeName);
      if (oid != null) {
        return oid;
      }

      PreparedStatement oidStatement = getOidStatement(pgTypeName);

      // Go through BaseStatement to avoid transaction start.
      if (!((BaseStatement) oidStatement).executeWithFlags(QueryExecutor.QUERY_SUPPRESS_BEGIN)) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      oid = Oid.UNSPECIFIED;
      ResultSet rs = castNonNull(oidStatement.getResultSet());
      if (rs.next()) {
        oid = (int) rs.getLong(1);
        String internalName = castNonNull(rs.getString(2));
        oidToPgName.put(oid, internalName);
        pgNameToOid.put(internalName, oid);
      }
      pgNameToOid.put(pgTypeName, oid);
      rs.close();

      return oid;
    }
  }

  @Override
  public @Nullable String getPGType(int oid) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      if (oid == Oid.UNSPECIFIED) {
        // TODO: it would be great to forbid UNSPECIFIED argument, and make the return type non-nullable
        return null;
      }

      String pgTypeName = oidToPgName.get(oid);
      if (pgTypeName != null) {
        return pgTypeName;
      }

      PreparedStatement getNameStatement = prepareGetNameStatement();

      getNameStatement.setInt(1, oid);

      // Go through BaseStatement to avoid transaction start.
      if (!((BaseStatement) getNameStatement).executeWithFlags(QueryExecutor.QUERY_SUPPRESS_BEGIN)) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      ResultSet rs = castNonNull(getNameStatement.getResultSet());
      if (rs.next()) {
        boolean onPath = rs.getBoolean(1);
        String schema = castNonNull(rs.getString(2), "schema");
        String name = castNonNull(rs.getString(3), "name");
        if (onPath) {
          pgTypeName = name;
          pgNameToOid.put(schema + "." + name, oid);
        } else {
          // TODO: escaping !?
          pgTypeName = "\"" + schema + "\".\"" + name + "\"";
          // if all is lowercase add special type info
          // TODO: should probably check for all special chars
          if (schema.equals(schema.toLowerCase(Locale.ROOT)) && schema.indexOf('.') == -1
              && name.equals(name.toLowerCase(Locale.ROOT)) && name.indexOf('.') == -1) {
            pgNameToOid.put(schema + "." + name, oid);
          }
        }
        pgNameToOid.put(pgTypeName, oid);
        oidToPgName.put(oid, pgTypeName);
      }
      rs.close();

      return pgTypeName;
    }
  }

  private PreparedStatement prepareGetNameStatement() throws SQLException {
    PreparedStatement getNameStatement = this.getNameStatement;
    if (getNameStatement == null) {
      String sql;
      sql = "SELECT n.nspname = ANY(current_schemas(true)), n.nspname, t.typname "
            + "FROM pg_catalog.pg_type t "
            + "JOIN pg_catalog.pg_namespace n ON t.typnamespace = n.oid WHERE t.oid = ?";

      this.getNameStatement = getNameStatement = conn.prepareStatement(sql);
    }
    return getNameStatement;
  }

  @Override
  public int getPGArrayType(@Nullable String elementTypeName) throws SQLException {
    elementTypeName = getTypeForAlias(elementTypeName);
    return getPGType(elementTypeName + "[]");
  }

  /**
   * Return the oid of the array's base element if it's an array, if not return the provided oid.
   * This doesn't do any database lookups, so it's only useful for the originally provided type
   * mappings. This is fine for it's intended uses where we only have intimate knowledge of types
   * that are already known to the driver.
   *
   * @param oid input oid
   * @return oid of the array's base element or the provided oid (if not array)
   */
  protected int convertArrayToBaseOid(int oid) {
    try (ResourceLock ignore = lock.obtain()) {
      Integer i = pgArrayToPgType.get(oid);
      if (i == null) {
        return oid;
      }
      return i;
    }
  }

  @Override
  public char getArrayDelimiter(int oid) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      if (oid == Oid.UNSPECIFIED) {
        return ',';
      }

      Character delim = arrayOidToDelimiter.get(oid);
      if (delim != null) {
        return delim;
      }

      PreparedStatement getArrayDelimiterStatement = prepareGetArrayDelimiterStatement();

      getArrayDelimiterStatement.setInt(1, oid);

      // Go through BaseStatement to avoid transaction start.
      if (!((BaseStatement) getArrayDelimiterStatement)
          .executeWithFlags(QueryExecutor.QUERY_SUPPRESS_BEGIN)) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      ResultSet rs = castNonNull(getArrayDelimiterStatement.getResultSet());
      if (!rs.next()) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      String s = castNonNull(rs.getString(1));
      delim = s.charAt(0);

      arrayOidToDelimiter.put(oid, delim);

      rs.close();

      return delim;
    }
  }

  private PreparedStatement prepareGetArrayDelimiterStatement() throws SQLException {
    PreparedStatement getArrayDelimiterStatement = this.getArrayDelimiterStatement;
    if (getArrayDelimiterStatement == null) {
      String sql;
      sql = "SELECT e.typdelim FROM pg_catalog.pg_type t, pg_catalog.pg_type e "
            + "WHERE t.oid = ? and t.typelem = e.oid";
      this.getArrayDelimiterStatement = getArrayDelimiterStatement = conn.prepareStatement(sql);
    }
    return getArrayDelimiterStatement;
  }

  @Override
  public int getPGArrayElement(int oid) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      if (oid == Oid.UNSPECIFIED) {
        return Oid.UNSPECIFIED;
      }

      Integer pgType = pgArrayToPgType.get(oid);

      if (pgType != null) {
        return pgType;
      }

      PreparedStatement getArrayElementOidStatement = prepareGetArrayElementOidStatement();

      getArrayElementOidStatement.setInt(1, oid);

      // Go through BaseStatement to avoid transaction start.
      if (!((BaseStatement) getArrayElementOidStatement)
          .executeWithFlags(QueryExecutor.QUERY_SUPPRESS_BEGIN)) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      ResultSet rs = castNonNull(getArrayElementOidStatement.getResultSet());
      if (!rs.next()) {
        throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
      }

      pgType = (int) rs.getLong(1);
      boolean onPath = rs.getBoolean(2);
      String schema = rs.getString(3);
      String name = castNonNull(rs.getString(4));
      pgArrayToPgType.put(oid, pgType);
      pgNameToOid.put(schema + "." + name, pgType);
      String fullName = "\"" + schema + "\".\"" + name + "\"";
      pgNameToOid.put(fullName, pgType);
      if (onPath && name.equals(name.toLowerCase(Locale.ROOT))) {
        oidToPgName.put(pgType, name);
        pgNameToOid.put(name, pgType);
      } else {
        oidToPgName.put(pgType, fullName);
      }

      rs.close();

      return pgType;
    }
  }

  private PreparedStatement prepareGetArrayElementOidStatement() throws SQLException {
    PreparedStatement getArrayElementOidStatement = this.getArrayElementOidStatement;
    if (getArrayElementOidStatement == null) {
      String sql;
      sql = "SELECT e.oid, n.nspname = ANY(current_schemas(true)), n.nspname, e.typname "
            + "FROM pg_catalog.pg_type t JOIN pg_catalog.pg_type e ON t.typelem = e.oid "
            + "JOIN pg_catalog.pg_namespace n ON t.typnamespace = n.oid WHERE t.oid = ?";
      this.getArrayElementOidStatement = getArrayElementOidStatement = conn.prepareStatement(sql);
    }
    return getArrayElementOidStatement;
  }

  @Override
  public @Nullable Class<? extends PGobject> getPGobject(String type) {
    try (ResourceLock ignore = lock.obtain()) {
      return pgNameToPgObject.get(type);
    }
  }

  @Override
  public String getJavaClass(int oid) throws SQLException {
    try (ResourceLock ignore = lock.obtain()) {
      String pgTypeName = getPGType(oid);
      if (pgTypeName == null) {
        // Technically speaking, we should not be here
        // null result probably means oid == UNSPECIFIED which has no clear way
        // to map to Java
        return "java.lang.String";
      }

      String result = pgNameToJavaClass.get(pgTypeName);
      if (result != null) {
        return result;
      }

      if (getSQLType(pgTypeName) == Types.ARRAY) {
        result = "java.sql.Array";
        pgNameToJavaClass.put(pgTypeName, result);
      }

      return result == null ? "java.lang.String" : result;
    }
  }

  @Override
  public @Nullable String getTypeForAlias(@Nullable String alias) {
    if ( alias == null ) {
      return null;
    }
    String type = TYPE_ALIASES.get(alias);
    if (type != null) {
      return type;
    }
    type = TYPE_ALIASES.get(alias.toLowerCase(Locale.ROOT));
    if (type == null) {
      type = alias;
    }
    //populate for future use
    TYPE_ALIASES.put(alias, type);
    return type;
  }

  @Override
  public int getPrecision(int oid, int typmod) {
    oid = convertArrayToBaseOid(oid);
    switch (oid) {
      case Oid.INT2:
        return 5;

      case Oid.OID:
      case Oid.INT4:
        return 10;

      case Oid.INT8:
        return 19;

      case Oid.FLOAT4:
        // For float4 and float8, we can normally only get 6 and 15
        // significant digits out, but extra_float_digits may raise
        // that number by up to two digits.
        return 8;

      case Oid.FLOAT8:
        return 17;

      case Oid.NUMERIC:
        if (typmod == -1) {
          return 0;
        }
        return ((typmod - 4) & 0xFFFF0000) >> 16;

      case Oid.CHAR:
      case Oid.BOOL:
        return 1;

      case Oid.BPCHAR:
      case Oid.VARCHAR:
        if (typmod == -1) {
          return unknownLength;
        }
        return typmod - 4;

      // datetime types get the
      // "length in characters of the String representation"
      case Oid.DATE:
      case Oid.TIME:
      case Oid.TIMETZ:
      case Oid.INTERVAL:
      case Oid.TIMESTAMP:
      case Oid.TIMESTAMPTZ:
        return getDisplaySize(oid, typmod);

      case Oid.BIT:
        return typmod;

      case Oid.VARBIT:
        if (typmod == -1) {
          return unknownLength;
        }
        return typmod;

      case Oid.TEXT:
      case Oid.BYTEA:
      default:
        return unknownLength;
    }
  }

  @Override
  public int getScale(int oid, int typmod) {
    oid = convertArrayToBaseOid(oid);
    switch (oid) {
      case Oid.FLOAT4:
        return 8;
      case Oid.FLOAT8:
        return 17;
      case Oid.NUMERIC:
        if (typmod == -1) {
          return 0;
        }
        return (typmod - 4) & 0xFFFF;
      case Oid.TIME:
      case Oid.TIMETZ:
      case Oid.TIMESTAMP:
      case Oid.TIMESTAMPTZ:
        if (typmod == -1) {
          return 6;
        }
        return typmod;
      case Oid.INTERVAL:
        if (typmod == -1) {
          return 6;
        }
        return typmod & 0xFFFF;
      default:
        return 0;
    }
  }

  @Override
  public boolean isCaseSensitive(int oid) {
    oid = convertArrayToBaseOid(oid);
    switch (oid) {
      case Oid.OID:
      case Oid.INT2:
      case Oid.INT4:
      case Oid.INT8:
      case Oid.FLOAT4:
      case Oid.FLOAT8:
      case Oid.NUMERIC:
      case Oid.BOOL:
      case Oid.BIT:
      case Oid.VARBIT:
      case Oid.DATE:
      case Oid.TIME:
      case Oid.TIMETZ:
      case Oid.TIMESTAMP:
      case Oid.TIMESTAMPTZ:
      case Oid.INTERVAL:
        return false;
      default:
        return true;
    }
  }

  @Override
  public boolean isSigned(int oid) {
    oid = convertArrayToBaseOid(oid);
    switch (oid) {
      case Oid.INT2:
      case Oid.INT4:
      case Oid.INT8:
      case Oid.FLOAT4:
      case Oid.FLOAT8:
      case Oid.NUMERIC:
        return true;
      default:
        return false;
    }
  }

  @Override
  public int getDisplaySize(int oid, int typmod) {
    oid = convertArrayToBaseOid(oid);
    switch (oid) {
      case Oid.INT2:
        return 6; // -32768 to +32767
      case Oid.INT4:
        return 11; // -2147483648 to +2147483647
      case Oid.OID:
        return 10; // 0 to 4294967295
      case Oid.INT8:
        return 20; // -9223372036854775808 to +9223372036854775807
      case Oid.FLOAT4:
        // varies based upon the extra_float_digits GUC.
        // These values are for the longest possible length.
        return 15; // sign + 9 digits + decimal point + e + sign + 2 digits
      case Oid.FLOAT8:
        return 25; // sign + 18 digits + decimal point + e + sign + 3 digits
      case Oid.CHAR:
        return 1;
      case Oid.BOOL:
        return 1;
      case Oid.DATE:
        return 13; // "4713-01-01 BC" to "01/01/4713 BC" - "31/12/32767"
      case Oid.TIME:
      case Oid.TIMETZ:
      case Oid.TIMESTAMP:
      case Oid.TIMESTAMPTZ:
        // Calculate the number of decimal digits + the decimal point.
        int secondSize;
        switch (typmod) {
          case -1:
            secondSize = 6 + 1;
            break;
          case 0:
            secondSize = 0;
            break;
          case 1:
            // Bizarrely SELECT '0:0:0.1'::time(1); returns 2 digits.
            secondSize = 2 + 1;
            break;
          default:
            secondSize = typmod + 1;
            break;
        }

        // We assume the worst case scenario for all of these.
        // time = '00:00:00' = 8
        // date = '5874897-12-31' = 13 (although at large values second precision is lost)
        // date = '294276-11-20' = 12 --enable-integer-datetimes
        // zone = '+11:30' = 6;

        switch (oid) {
          case Oid.TIME:
            return 8 + secondSize;
          case Oid.TIMETZ:
            return 8 + secondSize + 6;
          case Oid.TIMESTAMP:
            return 13 + 1 + 8 + secondSize;
          case Oid.TIMESTAMPTZ:
            return 13 + 1 + 8 + secondSize + 6;
          default:
            throw new IllegalStateException("oid " + oid + " should not appear here");
        }
      case Oid.INTERVAL:
        // SELECT LENGTH('-123456789 years 11 months 33 days 23 hours 10.123456 seconds'::interval);
        return 49;
      case Oid.VARCHAR:
      case Oid.BPCHAR:
        if (typmod == -1) {
          return unknownLength;
        }
        return typmod - 4;
      case Oid.NUMERIC:
        if (typmod == -1) {
          return 131089; // SELECT LENGTH(pow(10::numeric,131071)); 131071 = 2^17-1
        }
        int precision = (typmod - 4 >> 16) & 0xffff;
        int scale = (typmod - 4) & 0xffff;
        // sign + digits + decimal point (only if we have nonzero scale)
        return 1 + precision + (scale != 0 ? 1 : 0);
      case Oid.BIT:
        return typmod;
      case Oid.VARBIT:
        if (typmod == -1) {
          return unknownLength;
        }
        return typmod;
      case Oid.TEXT:
      case Oid.BYTEA:
        return unknownLength;
      default:
        return unknownLength;
    }
  }

  @Override
  public int getMaximumPrecision(int oid) {
    oid = convertArrayToBaseOid(oid);
    switch (oid) {
      case Oid.NUMERIC:
        return 1000;
      case Oid.TIME:
      case Oid.TIMETZ:
        // Technically this depends on the --enable-integer-datetimes
        // configure setting. It is 6 with integer and 10 with float.
        return 6;
      case Oid.TIMESTAMP:
      case Oid.TIMESTAMPTZ:
      case Oid.INTERVAL:
        return 6;
      case Oid.BPCHAR:
      case Oid.VARCHAR:
        return 10485760;
      case Oid.BIT:
      case Oid.VARBIT:
        return 83886080;
      default:
        return 0;
    }
  }

  @Override
  public boolean requiresQuoting(int oid) throws SQLException {
    int sqlType = getSQLType(oid);
    return requiresQuotingSqlType(sqlType);
  }

  /**
   * Returns true if particular sqlType requires quoting.
   * This method is used internally by the driver, so it might disappear without notice.
   *
   * @param sqlType sql type as in java.sql.Types
   * @return true if the type requires quoting
   * @throws SQLException if something goes wrong
   */
  @Override
  public boolean requiresQuotingSqlType(int sqlType) throws SQLException {
    switch (sqlType) {
      case Types.BIGINT:
      case Types.DOUBLE:
      case Types.FLOAT:
      case Types.INTEGER:
      case Types.REAL:
      case Types.SMALLINT:
      case Types.TINYINT:
      case Types.NUMERIC:
      case Types.DECIMAL:
        return false;
    }
    return true;
  }

  @Override
  public int longOidToInt(long oid) throws SQLException {
    if ((oid & 0xFFFF_FFFF_0000_0000L) != 0) {
      throw new PSQLException(GT.tr("Value is not an OID: {0}", oid), PSQLState.NUMERIC_VALUE_OUT_OF_RANGE);
    }

    return (int) oid;
  }

  @Override
  public long intOidToLong(int oid) {
    return ((long) oid) & 0xFFFFFFFFL;
  }
}
